Science - 27.03.2020

(Axel Boer) #1

During classification, another subset with
143,857 particles was processed to an over-
all resolution of 4.5 Å. Whereas the neck do-
main still dimerizes, the PDs are separated
from each other in this reconstruction (Fig.
1D and fig. S1, H to K). We therefore define
the two classes as the open and closed con-
formations. Structural comparison shows that
the conformational changes are achieved
through rotation of the PD domains, with the
rest of the complex left nearly unchanged
(movie S1).


Homodimer interface of ACE2


Dimerization of ACE2 is mainly mediated by
the neck domain, with the PD contributing a
minor interface (Fig. 2A). The two ACE2 pro-
tomers are hereafter referred to as A and B,
with residues in protomer B followed by a prime
symbol. Extensive polar interactions are mapped
to the interface between the second (residues
636 to 658) and fourth (residues 708 to 717)
helices of the neck domain (Fig. 2B). Arg^652
and Arg^710 in ACE2-A form cation-pinter-
actions with Tyr^641 ′and Tyr^633 ′in ACE2-B.
Meanwhile, Arg^652 and Arg^710 are respectively
hydrogen-bonded (H-bonded) to Asn^638 ′and


Glu^639 ′, which also interact with Gln^653 , as
does Asn^636 ′. Ser^709 and Asp^713 from ACE2-A
are H-bonded to Arg^716 ′. This extensive net-
work of polar interactions indicates stable
dimer formation.
ThePDdimerinterfaceappearsmuchweaker,
with only one pair of interactions between
Gln^139 and Gln^175 ′(Fig. 2C). Gln^139 is in a loop
that is stabilized by a disulfide bond between
Cys^133 and Cys^141 as well as multiple intraloop
polar interactions (Fig. 2C). The weak interac-
tion is consistent with the ability to transition
to the open conformation, in which the inter-
face between the neck domains remains the
same while the PDs are separated from each
other by ~25 Å (Fig. 2D and movie S1).

Overall structure of the RBD-ACE2-B^0 AT1 complex
To gain insight into the interaction between
ACE2 and SARS-CoV-2, we purchased 0.2 mg
of recombinantly expressed and purified RBD-
mFc of SARS-CoV-2 (for simplicity, hereafter
referred to as RBD; mFc, mouse Fc tag) from
Sino Biological Inc., mixed it with our puri-
fied ACE2-B^0 AT1 complex at a stoichiometric
ratioof~1.1to1,andproceededwithcryo-
grid preparation and imaging. Finally, a 3D

EM reconstruction of the ternary complex
was obtained.
In contrast to the ACE2-B^0 AT1 complex—
which has two conformations, open and closed—
only the closed state of ACE2 was observed in
the dataset for the RBD-ACE2-B^0 AT1 ternary
complex. The structure of the ternary complex
was determined to an overall resolution of 2.9 Å
from 527,017 selected particles. However, the
resolution for the ACE2-B^0 AT1 complex was
substantially higher than that for the RBDs,
which are at the periphery of the complex
(Fig. 3A). To improve the local resolution, fo-
cused refinement was applied; this allowed us
to reach a resolution of 3.5 Å for the RBD, sup-
porting reliable modeling and analysis of the
interface (Fig. 3, figs. S5 to S7, and table S1).

Interface between the RBD and ACE2
As expected, each PD accommodates one RBD
(Fig. 3B). The overall interface is similar to that
between SARS-CoV and ACE2 ( 7 , 8 ), mediated
mainly through polar interactions (Fig. 4A).
An extended loop region of the RBD spans the
arch-shapeda1helixoftheACE2-PDlikea
bridge. Thea2 helix and a loop that connects
theb3 andb4 antiparallel strands, referred

SCIENCE 27 MARCH 2020•VOL 367 ISSUE 6485 1445


Fig. 1. Overall structure of the
ACE2-B^0 AT1 complex.(A) Repre-
sentative size exclusion chroma-
tography purification profile of
full-length human ACE2 in complex
with B^0 AT1. UV, ultraviolet; mAU,
milli–absorbance units; MWM,
molecular weight marker. (B) Cryo-
EM map of the ACE2-B^0 AT1
complex. The map is generated
by merging the focused refined
maps shown in fig. S2. Protomer A
of ACE2 (cyan), protomer B of
ACE2 (blue), protomer A of B^0 AT1
(pink) and protomer B of B^0 AT1
(gray) are shown. (C) Cartoon
representation of the atomic
model of the ACE2-B^0 AT1 complex.
The glycosylation moieties are
shown as sticks. The complex
is colored by subunits, with the PD
and CLD in one ACE2 protomer
colored cyan and blue, respectively.
(D) An open conformation of the
ACE2-B^0 AT1 complex. The two PDs,
which contact each other in the
closed conformation, are separated
in the open conformation.

RESEARCH | RESEARCH ARTICLES
Free download pdf